DIMACS: Series in Discrete Mathematics and Theoretical Computer Science 1997; 382 pp; hardcover Volume: 28 ISBN10: 0821805169 ISBN13: 9780821805169 List Price: US$101 Member Price: US$80.80 Order Code: DIMACS/28
 The workshop "Groups and Computations" took place at the Center for Discrete Mathematics and Theoretical Computer Science (DIMACS) at Rutgers University in June 1995. This and an earlier workshop (see Groups and Computation, Finkelstein and Kantor, ©1993, American Mathematical Society) held in October 1991 was aimed at merging theory and practice within the broad area of computation with groups. The primary goal of the previous workshop was to foster a dialogue between researchers studying the computational complexity of group algorithms and those engaged in the development of practical software. It was expected that this would lead to a deeper understanding of the mathematical issues underlying group computation and that this understanding would lead, in turn, to faster algorithms. Comments and subsequent work indicated that this goal had been achieved beyond expectations. The second workshop was designed to reinforce the progress in these directions. The scientific program consisted of invited lectures and research announcements, as well as informal discussions and software demonstrations. The eight extended talks discussed randomization, permutation groups, matrix groups, software systems, fast Fourier transforms and their applications to signal processing and data analysis, computations with finitely presented groups, and implementation and complexity questions. As in the previous workshop, speakers ranged from established researchers to graduate students. Copublished with the Center for Discrete Mathematics and Theoretical Computer Science beginning with Volume 8. Volumes 17 were copublished with the Association for Computer Machinery (ACM). Readership Graduate students and research mathematicians interested in computational methods. Table of Contents  L. Babai  Randomization in group algorithms: Conceptual questions
 G. Baumslag and C. M. III  Experimenting and computing with infinite groups
 R. Beals  Towards polynomial time algorithms for matrix groups
 F. Celler and C. R. LeedhamGreen  Calculating the order of an invertible matrix
 F. Celler and C. R. LeedhamGreen  A nonconstructive recognition algorithm for the special linear and other classical groups
 G. Cooperman  GAP/MPI: Facilitating parallelism
 G. Cooperman, L. Finkelstein, and S. Linton  Constructive recognition of a black box group isomorphic to \(GL(n,2)\)
 B. Eick  Special presentations for finite soluble groups and computing (pre)Frattini subgroups
 T. Grüner, R. Laue, and M. Meringer  Algorithms for group actions applied to graph generation
 J. S. Leon  Partitions, refinements, and permutation group computation
 E. H. Lo  A polycyclic quotient algorithm
 E. M. Luks and Seress  Computing the Fitting subgroup and solvable radical for smallbase permutation groups in nearly linear time
 D. K. Maslen and D. M. Rockmore  Generalized FFT'sA survey of some recent results
 T. Miyazaki  The complexity of McKay's canonical labeling algorithm
 P. Morje  On nearly linear time algorithms for Sylow subgroups of small base permutation groups
 A. C. Niemeyer and C. E. Praeger  Implementing a recognition algorithm for classical groups
 G. Ostheimer  Algorithms for polycyclicbyfinite matrix groups
 L. Pyber  Asymptotic results for simple groups and some applications
 D. M. Rockmore  Some applications of generalized FFT's
 M. Tselman  Computing permutation representations for matrix groups in parallel environments
